* under the terms of the license (GNU LGPL) which comes with this package. */
#include <fstream>
+#include <numeric>
#include <sstream>
#include <string>
#include "src/surf/network_interface.hpp"
#include "src/surf/xml/platf_private.hpp"
-
#include <boost/algorithm/string/classification.hpp>
#include <boost/algorithm/string/split.hpp>
namespace kernel {
namespace routing {
-FatTreeZone::FatTreeZone(NetZoneImpl* father, const std::string& name, resource::NetworkModel* netmodel)
- : ClusterZone(father, name, netmodel)
-{
- XBT_DEBUG("Creating a new fat tree.");
-}
-
FatTreeZone::~FatTreeZone()
{
- for (FatTreeNode const* node : this->nodes_) {
+ for (FatTreeNode const* node : this->nodes_)
delete node;
- }
- for (FatTreeLink const* link : this->links_) {
+ for (FatTreeLink const* link : this->links_)
delete link;
- }
}
bool FatTreeZone::is_in_sub_tree(FatTreeNode* root, FatTreeNode* node) const
dst->get_cname(), dst->id());
/* In case destination is the source, and there is a loopback, let's use it instead of going up to a switch */
- if (source->id == destination->id && this->has_loopback_) {
- into->link_list.push_back(source->loopback);
+ if (source->id == destination->id && has_loopback()) {
+ into->link_list.push_back(source->loopback_);
if (latency)
- *latency += source->loopback->get_latency();
+ *latency += source->loopback_->get_latency();
return;
}
if (latency)
*latency += currentNode->parents[d]->up_link_->get_latency();
- if (this->has_limiter_)
+ if (currentNode->limiter_link_)
into->link_list.push_back(currentNode->limiter_link_);
currentNode = currentNode->parents[d]->up_node_;
}
if (latency)
*latency += currentNode->children[i]->down_link_->get_latency();
currentNode = currentNode->children[i]->down_node_;
- if (this->has_limiter_)
+ if (currentNode->limiter_link_)
into->link_list.push_back(currentNode->limiter_link_);
XBT_DEBUG("%d(%u,%u) is accessible through %d(%u,%u)", destination->id, destination->level,
destination->position, currentNode->id, currentNode->level, currentNode->position);
}
}
}
+ // set gateways (if any)
+ into->gw_src = get_gateway(src->id());
+ into->gw_dst = get_gateway(dst->id());
}
/* This function makes the assumption that parse_specific_arguments() and
* addNodes() have already been called
*/
-void FatTreeZone::seal()
+void FatTreeZone::do_seal()
{
if (this->levels_ == 0) {
return;
int FatTreeZone::connect_node_to_parents(FatTreeNode* node)
{
- auto currentParentNode = this->nodes_.begin();
- int connectionsNumber = 0;
- const int level = node->level;
+ auto currentParentNode = this->nodes_.begin();
+ int connectionsNumber = 0;
+ const int level = node->level;
XBT_DEBUG("We are connecting node %d(%u,%u) to his parents.", node->id, node->level, node->position);
currentParentNode += this->get_level_position(level + 1);
for (unsigned int i = 0; i < this->nodes_by_level_[level + 1]; i++) {
int k = 0;
for (unsigned int i = 0; i < this->levels_; i++) {
for (unsigned int j = 0; j < this->nodes_by_level_[i + 1]; j++) {
- auto* newNode = new FatTreeNode(this->cluster_, --k, i + 1, j);
+ auto* newNode = new FatTreeNode(--k, i + 1, j, nullptr, nullptr);
XBT_DEBUG("We create the switch %d(%u,%u)", newNode->id, newNode->level, newNode->position);
newNode->children.resize(this->num_children_per_node_[i] * this->num_port_lower_level_[i]);
if (i != this->levels_ - 1) {
return tempPosition;
}
-void FatTreeZone::add_processing_node(int id)
+void FatTreeZone::add_processing_node(int id, resource::LinkImpl* limiter, resource::LinkImpl* loopback)
{
using std::make_pair;
static int position = 0;
- FatTreeNode* newNode;
- newNode = new FatTreeNode(this->cluster_, id, 0, position++);
+ auto* newNode = new FatTreeNode(id, 0, position++, limiter, loopback);
newNode->parents.resize(this->num_parents_per_node_[0] * this->num_port_lower_level_[0]);
newNode->label.resize(this->levels_);
this->compute_nodes_.insert(make_pair(id, newNode));
void FatTreeZone::add_link(FatTreeNode* parent, unsigned int parentPort, FatTreeNode* child, unsigned int childPort)
{
- FatTreeLink* newLink;
- newLink = new FatTreeLink(this->cluster_, child, parent);
+ static int uniqueId = 0;
+ const s4u::Link* linkup;
+ const s4u::Link* linkdown;
+ std::string id =
+ "link_from_" + std::to_string(child->id) + "_" + std::to_string(parent->id) + "_" + std::to_string(uniqueId);
+
+ if (link_sharing_policy_ == s4u::Link::SharingPolicy::SPLITDUPLEX) {
+ linkup = create_link(id + "_UP", std::vector<double>{link_bw_})->set_latency(link_lat_)->seal();
+ linkdown = create_link(id + "_DOWN", std::vector<double>{link_bw_})->set_latency(link_lat_)->seal();
+ } else {
+ linkup = create_link(id, std::vector<double>{link_bw_})->set_latency(link_lat_)->seal();
+ linkdown = linkup;
+ }
+ uniqueId++;
+
+ auto* newLink = new FatTreeLink(child, parent, linkup->get_impl(), linkdown->get_impl());
XBT_DEBUG("Creating a link between the parent (%u,%u,%u) and the child (%u,%u,%u)", parent->level, parent->position,
parentPort, child->level, child->position, childPort);
parent->children[parentPort] = newLink;
this->links_.push_back(newLink);
}
+void FatTreeZone::check_topology(unsigned int n_levels, const std::vector<unsigned int>& down_links,
+ const std::vector<unsigned int>& up_links, const std::vector<unsigned int>& link_count)
+
+{
+ /* check number of levels */
+ if (n_levels <= 0)
+ throw std::invalid_argument("FatTreeZone: invalid number of levels, must be > 0");
+
+ auto check_vector = [&n_levels](const std::vector<unsigned int>& vector, const std::string& var_name) {
+ if (vector.size() != n_levels)
+ throw std::invalid_argument("FatTreeZone: invalid " + var_name + " parameter, vector has " +
+ std::to_string(vector.size()) + " elements, must have " + std::to_string(n_levels));
+
+ auto check_zero = [](unsigned int i) { return i == 0; };
+ if (std::any_of(vector.begin(), vector.end(), check_zero))
+ throw std::invalid_argument("FatTreeZone: invalid " + var_name + " parameter, all values must be greater than 0");
+ };
+
+ /* check remaining vectors */
+ check_vector(down_links, "down links");
+ check_vector(up_links, "up links");
+ check_vector(link_count, "link count");
+}
+
+void FatTreeZone::set_link_characteristics(double bw, double lat, s4u::Link::SharingPolicy sharing_policy)
+{
+ link_sharing_policy_ = sharing_policy;
+ link_bw_ = bw;
+ link_lat_ = lat;
+}
+
+void FatTreeZone::set_topology(unsigned int n_levels, const std::vector<unsigned int>& down_links,
+ const std::vector<unsigned int>& up_links, const std::vector<unsigned int>& link_count)
+{
+ levels_ = n_levels;
+ num_children_per_node_ = down_links;
+ num_parents_per_node_ = up_links;
+ num_port_lower_level_ = link_count;
+}
+
void FatTreeZone::parse_specific_arguments(ClusterCreationArgs* cluster)
{
std::vector<std::string> parameters;
std::vector<std::string> tmp;
+ unsigned int n_lev = 0;
+ std::vector<unsigned int> down;
+ std::vector<unsigned int> up;
+ std::vector<unsigned int> count;
boost::split(parameters, cluster->topo_parameters, boost::is_any_of(";"));
- // TODO : we have to check for zeros and negative numbers, or it might crash
surf_parse_assert(
parameters.size() == 4,
"Fat trees are defined by the levels number and 3 vectors, see the documentation for more information.");
// The first parts of topo_parameters should be the levels number
try {
- this->levels_ = std::stoi(parameters[0]);
+ n_lev = std::stoi(parameters[0]);
} catch (const std::invalid_argument&) {
surf_parse_error(std::string("First parameter is not the amount of levels: ") + parameters[0]);
}
// Then, a l-sized vector standing for the children number by level
boost::split(tmp, parameters[1], boost::is_any_of(","));
- surf_parse_assert(tmp.size() == this->levels_, std::string("You specified ") + std::to_string(this->levels_) +
- " levels but the child count vector (the first one) contains " +
- std::to_string(tmp.size()) + " levels.");
+ surf_parse_assert(tmp.size() == n_lev, std::string("You specified ") + std::to_string(n_lev) +
+ " levels but the child count vector (the first one) contains " +
+ std::to_string(tmp.size()) + " levels.");
for (std::string const& level : tmp) {
try {
- this->num_children_per_node_.push_back(std::stoi(level));
+ down.push_back(std::stoi(level));
} catch (const std::invalid_argument&) {
surf_parse_error(std::string("Invalid child count: ") + level);
}
// Then, a l-sized vector standing for the parents number by level
boost::split(tmp, parameters[2], boost::is_any_of(","));
- surf_parse_assert(tmp.size() == this->levels_, std::string("You specified ") + std::to_string(this->levels_) +
- " levels but the parent count vector (the second one) contains " +
- std::to_string(tmp.size()) + " levels.");
+ surf_parse_assert(tmp.size() == n_lev, std::string("You specified ") + std::to_string(n_lev) +
+ " levels but the parent count vector (the second one) contains " +
+ std::to_string(tmp.size()) + " levels.");
for (std::string const& parent : tmp) {
try {
- this->num_parents_per_node_.push_back(std::stoi(parent));
+ up.push_back(std::stoi(parent));
} catch (const std::invalid_argument&) {
surf_parse_error(std::string("Invalid parent count: ") + parent);
}
// Finally, a l-sized vector standing for the ports number with the lower level
boost::split(tmp, parameters[3], boost::is_any_of(","));
- surf_parse_assert(tmp.size() == this->levels_, std::string("You specified ") + std::to_string(this->levels_) +
- " levels but the port count vector (the third one) contains " +
- std::to_string(tmp.size()) + " levels.");
+ surf_parse_assert(tmp.size() == n_lev, std::string("You specified ") + std::to_string(n_lev) +
+ " levels but the port count vector (the third one) contains " +
+ std::to_string(tmp.size()) + " levels.");
for (std::string const& port : tmp) {
try {
- this->num_port_lower_level_.push_back(std::stoi(port));
+ count.push_back(std::stoi(port));
} catch (const std::invalid_argument&) {
throw std::invalid_argument(std::string("Invalid lower level port number:") + port);
}
}
- this->cluster_ = cluster;
+
+ /* set topology */
+ FatTreeZone::check_topology(n_lev, down, up, count);
+ set_topology(n_lev, down, up, count);
+ /* saving internal links properties */
+ set_link_characteristics(cluster->bw, cluster->lat, cluster->sharing_policy);
}
void FatTreeZone::generate_dot_file(const std::string& filename) const
file << "}";
file.close();
}
+} // namespace routing
+} // namespace kernel
-FatTreeNode::FatTreeNode(const ClusterCreationArgs* cluster, int id, int level, int position)
- : id(id), level(level), position(position)
+namespace s4u {
+NetZone* create_fatTree_zone(const std::string& name, const NetZone* parent, const FatTreeParams& params,
+ double bandwidth, double latency, Link::SharingPolicy sharing_policy,
+ const std::function<ClusterNetPointCb>& set_netpoint,
+ const std::function<ClusterLinkCb>& set_loopback,
+ const std::function<ClusterLinkCb>& set_limiter)
{
- LinkCreationArgs linkTemplate;
- if (cluster->limiter_link != 0.0) {
- linkTemplate.bandwidths.push_back(cluster->limiter_link);
- linkTemplate.latency = 0;
- linkTemplate.policy = s4u::Link::SharingPolicy::SHARED;
- linkTemplate.id = "limiter_"+std::to_string(id);
- sg_platf_new_link(&linkTemplate);
- this->limiter_link_ = s4u::Link::by_name(linkTemplate.id)->get_impl();
- }
- if (cluster->loopback_bw != 0.0 || cluster->loopback_lat != 0.0) {
- linkTemplate.bandwidths.push_back(cluster->loopback_bw);
- linkTemplate.latency = cluster->loopback_lat;
- linkTemplate.policy = s4u::Link::SharingPolicy::FATPIPE;
- linkTemplate.id = "loopback_"+ std::to_string(id);
- sg_platf_new_link(&linkTemplate);
- this->loopback = s4u::Link::by_name(linkTemplate.id)->get_impl();
+ /* initial checks */
+ if (bandwidth <= 0)
+ throw std::invalid_argument("FatTreeZone: incorrect bandwidth for internode communication, bw=" +
+ std::to_string(bandwidth));
+ if (latency < 0)
+ throw std::invalid_argument("FatTreeZone: incorrect latency for internode communication, lat=" +
+ std::to_string(latency));
+ kernel::routing::FatTreeZone::check_topology(params.levels, params.down, params.up, params.number);
+
+ /* creating zone */
+ auto* zone = new kernel::routing::FatTreeZone(name);
+ zone->set_topology(params.levels, params.down, params.up, params.number);
+ if (parent)
+ zone->set_parent(parent->get_impl());
+ zone->set_link_characteristics(bandwidth, latency, sharing_policy);
+
+ /* populating it */
+ int tot_elements = std::accumulate(params.down.begin(), params.down.end(), 1, std::multiplies<>());
+ for (int i = 0; i < tot_elements; i++) {
+ kernel::routing::NetPoint* netpoint;
+ Link* limiter;
+ Link* loopback;
+ zone->fill_leaf_from_cb(i, params.down, set_netpoint, set_loopback, set_limiter, &netpoint, &loopback, &limiter);
+ zone->add_processing_node(i, limiter ? limiter->get_impl() : nullptr, loopback ? loopback->get_impl() : nullptr);
}
-}
-FatTreeLink::FatTreeLink(const ClusterCreationArgs* cluster, FatTreeNode* downNode, FatTreeNode* upNode)
- : up_node_(upNode), down_node_(downNode)
-{
- static int uniqueId = 0;
- LinkCreationArgs linkTemplate;
- linkTemplate.bandwidths.push_back(cluster->bw);
- linkTemplate.latency = cluster->lat;
- linkTemplate.policy = cluster->sharing_policy; // sthg to do with that ?
- linkTemplate.id =
- "link_from_" + std::to_string(downNode->id) + "_" + std::to_string(upNode->id) + "_" + std::to_string(uniqueId);
- sg_platf_new_link(&linkTemplate);
-
- if (cluster->sharing_policy == s4u::Link::SharingPolicy::SPLITDUPLEX) {
- this->up_link_ = s4u::Link::by_name(linkTemplate.id + "_UP")->get_impl(); // check link?
- this->down_link_ = s4u::Link::by_name(linkTemplate.id + "_DOWN")->get_impl(); // check link ?
- } else {
- this->up_link_ = s4u::Link::by_name(linkTemplate.id)->get_impl();
- this->down_link_ = this->up_link_;
- }
- uniqueId++;
+ return zone->get_iface();
}
-} // namespace routing
-} // namespace kernel
+} // namespace s4u
+
} // namespace simgrid